BeWell: A Smartphone Application to Monitor, Model and Promote Wellbeing

Lane, Nicholas D.; Mohammod, Mashfiqui; Lin, Mu; Yang, Xiao Hua; Lu, Hong; Ali, Shahid; Doryab, Afsaneh; Berke, Ethan M.; Choudhury, Tanzeem; Campbell, Andrew T.

doi:10.4108/icst.pervasivehealth.2011.246161

Cited by 321 publications

(239 citation statements)

References 22 publications

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“…These data can be aggregated to obtain the traffic pattern and pollution map. For another example, the average amount of exercise (which can be measured by motion sensors on smartphones [3]) that people do in every day can be used to infer public health conditions.…”

Section: Introductionmentioning

confidence: 99%

“…Mobile sensing exploits the data contributed by mobile users (via the mobile devices they carry) to infer rich information about people (e.g., health, activity, and social event) and their surrounding (e.g., pollution and weather). Applications of mobile sensing include traffic monitoring [1], environmental monitoring [2], healthcare [3], etc.…”

Section: Introductionmentioning

confidence: 99%

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Efficient Privacy-Preserving Stream Aggregation in Mobile Sensing with Low Aggregation Error

Cao

2013

Privacy Enhancing Technologies

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Abstract. Aggregate statistics computed from time-series data contributed by individual mobile nodes can be very useful for many mobile sensing applications. Since the data from individual node may be privacy-sensitive, the aggregator should only learn the desired statistics without compromising the privacy of each node. To provide strong privacy guarantee, existing approaches add noise to each node's data and allow the aggregator to get a noisy sum aggregate. However, these approaches either have high computation cost, high communication overhead when nodes join and leave, or accumulate a large noise in the sum aggregate which means high aggregation error. In this paper, we propose a scheme for privacy-preserving aggregation of time-series data in presence of untrusted aggregator, which provides differential privacy for the sum aggregate. It leverages a novel ring-based interleaved grouping technique to efficiently deal with dynamic joins and leaves and achieve low aggregation error. Specifically, when a node joins or leaves, only a small number of nodes need to update their cryptographic keys. Also, the nodes only collectively add a small noise to the sum to ensure differential privacy, which is O(1) with respect to the number of nodes. Based on symmetric-key cryptography, our scheme is very efficient in computation.

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Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Efficient Privacy-Preserving Stream Aggregation in Mobile Sensing with Low Aggregation Error

Cao

2013

Privacy Enhancing Technologies

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“…One of the works that do address this issue is the one from Lane et al [6], which have designed BeWell, an application in which the embedded accelerometer, microphone and GPS receiver are used to recognize driving, stationary, running and walking activities, analyzing the RAM and CPU load of the application, as well as its impact on power consumption. Chu et al [7] have developed Kobe: a tool that performs profiling and optimization of mobile embedded classifiers to achieve an optimal energy-latency-accuracy tradeoff.…”

Section: Introductionmentioning

confidence: 99%

Towards a fuzzy-based multi-classifier selection module for activity recognition applications

Martín

Iglesias

Cano

et al. 2012

2012 IEEE International Conference on Pervasive Computing and Communications Workshops

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Abstract-Performing activity recognition using the information provided by the different sensors embedded in a smartphone face limitations due to the capabilities of those devices when the computations are carried out in the terminal. In this work a fuzzy inference module is implemented in order to decide which classifier is the most appropriate to be used at a specific moment regarding the application requirements and the device context characterized by its battery level, available memory and CPU load. The set of classifiers that is considered is composed of Decision Tables and Trees that have been trained using different number of sensors and features. In addition, some classifiers perform activity recognition regardless of the on-body device position and others rely on the previous recognition of that position to use a classifier that is trained with measurements gathered with the mobile placed on that specific position. The modules implemented show that an evaluation of the classifiers allows sorting them so the fuzzy inference module can choose periodically the one that best suits the device context and application requirements.

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“…While Lane et al focus on informing the user of the application through a relatively simple feedback loop, van Sinderen et al use context reasoning and ECA rules to directly interact with the environment. As is the case with Salber et al [86], both Lane et al [59] and van Sinderen et al [121] do not clarify how their methods are used to improve software quality, reduce errors, and reduce development time. Domain knowledge and domain experts are mentioned in neither of the papers.…”

Section: Architectural Solutionsmentioning

confidence: 97%

“…Lane et al [59] describe the architecture of a context-aware wellbeing system. The BeWell system consists of a smartphone and an infrastructure part, the smartphone elements providing means for sensing and providing the user with feedback, the infrastructure hosting a web portal and performing calculations on raw data.…”

Section: Architectural Solutionsmentioning

confidence: 99%

Causal Models for Well-Being

Bosems¹

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BeWell: A Smartphone Application to Monitor, Model and Promote Wellbeing

Cited by 321 publications

References 22 publications

Efficient Privacy-Preserving Stream Aggregation in Mobile Sensing with Low Aggregation Error

Efficient Privacy-Preserving Stream Aggregation in Mobile Sensing with Low Aggregation Error

Towards a fuzzy-based multi-classifier selection module for activity recognition applications

Causal Models for Well-Being

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